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I asked a question earlier yesterday and got some very good answers for sure. Now I am at the end of my project and I am stuck again and can't figure out the answer. I am going to put the most pertinent part of my code here and hope to get some insight from you all. The requirements are: I cannot change the code in my main.cpp, and my header file is supposed to be as simple as possible.

Having that out of the way here is the code: This is my Matrix.h file

#ifndef MATRIX_H
#define MATRIX_H
#include <vector>
#include <iostream>
#include <math.h>
#include <complex>
using namespace std;
namespace theMatrix {

template <typename T, size_t ROWS, size_t COLS>
class Matrix {
    friend class Matrix;
public:
    Matrix(const T & init = T()) : elts(ROWS, vector<T>(COLS, init)) {
    };
    const vector<T> & operator[](int ROWS) const {
        return elts[ROWS];
    };

    vector<T> & operator[](int ROWS) {
        return elts[ROWS];
    };
    //matrixMult

    template<size_t INNER>
    Matrix & matrixMult(const Matrix<T, ROWS, INNER> & mat1, const Matrix<T, INNER, COLS> & mat2) {
        for (int i = 0; i < ROWS; i++) {
            for (int j = 0; j < COLS; j++) {
                //elts[i][j] = 0;
                for (int k = 0; k < INNER; k++) {
                    this->elts[i][j] += mat1.elts[i][k] * mat2.elts[k][j];
                }
            }
        }
        return *this;
    };

    //print function

    void print(ostream & out) const {
        for (int i = 0; i < ROWS; i++) {
            for (int j = 0; j < COLS; j++) {
                out << elts[i][j];
            }
            out << "\n";
        }
    };

private:
    vector< vector<T> > elts;
};
//Operator<<

template <typename T, size_t ROWS, size_t COLS>
ostream & operator<<(ostream & out, const Matrix<T, ROWS, COLS> & elts) {
    elts.print(out);
    return out;
};


//Operator*

template <typename T, size_t ROWS, size_t COLS>
Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, COLS> & lhs, const Matrix<T, ROWS, COLS> & rhs) {
    Matrix<T, ROWS, COLS> returnVal;
    return returnVal.matrixMult(lhs, rhs);
};
//operator matrixMult

template <typename T, size_t ROWS, size_t INNER, size_t COLS>
inline void matrixMult(const Matrix<T, ROWS, INNER> & mat1, const Matrix<T, INNER, COLS> & mat2, Matrix<T, ROWS, COLS> & mat3) {
    mat3 = matrixMult(mat1, mat2);
};

This is my main.cpp:

#include <iostream>
#include <fstream>
#include <string>
#include <cstdlib>  // for rand()
#include "Matrix.h"

using namespace std;
using namespace theMatrix;

template <typename T, size_t ROWS, size_t COLS>
void randomize(Matrix<T, ROWS, COLS> & mat)
// Put random values in a Matrix.
// Note:  It must be possible to assign T an int value.
{
for (size_t i = 0; i < ROWS; i++)
    for (size_t j = 0; j < COLS; j++)
        mat[i][j] = (rand() % 21) - 10; // Random number in range -10,...,+10
}

struct Complex
{
Complex(double re = 0.0, double im = 0.0) : real(re), imag(im) { }
Complex & operator+=(const Complex & rhs)
{
    real += rhs.real;
    imag += rhs.imag;
    return *this;
}
Complex & operator-=(const Complex & rhs)
{
    real -= rhs.real;
    imag -= rhs.imag;
    return *this;
}
Complex & operator*=(const Complex & rhs)
{
    real = real * rhs.real - imag * rhs.imag;
    imag = real * rhs.imag + imag * rhs.real;
    return *this;
}
double real;
double imag;
};
Complex operator+(const Complex & lhs, const Complex & rhs)
{
return Complex(lhs.real + rhs.real, lhs.imag + rhs.imag);
}
Complex operator-(const Complex & lhs, const Complex & rhs)
{
return Complex(lhs.real - rhs.real, lhs.imag - rhs.imag);
}
Complex operator*(const Complex & lhs, const Complex & rhs)
{
return Complex(lhs.real * rhs.real - lhs.imag * rhs.imag, lhs.real * rhs.imag + lhs.imag * rhs.real);
}
ostream & operator<<(ostream & out, const Complex & c)
{
out << "(" << c.real << " + " << c.imag << "i)";
return out;
}

int main()
{
// Matrix multiplication tests:
Matrix<int, 2, 3> m4;
randomize(m4);
Matrix<int, 3, 5> m5;
randomize(m5);
Matrix<int, 2, 5> m6;
Matrix<int, 2, 5> m7;
matrixMult(m4, m5, m7);
out << "m6 == m4 * m5: " << (m6 == m4 * m5) << endl; // here is the first error

// Matrices of Complex:
Matrix<Complex, 2, 8> m11;
randomize(m11);
Complex c(1, -3);
Matrix<Complex, 8, 3> m12;
randomize(m12);
out << "m11 * m12: " << endl << m11 * m12 << endl; // Here is the second error
out.close();
}

I am having only two errors which are conflicting with the complex operator * declaration which I have been trying to solve for several hours and I just can't figure it out. Here are the errors:

Error        1        error C2678: binary '*' : no operator found which takes a left-hand operand of type 'nkumath::Matrix<T,ROWS,COLS>' (or there is no acceptable conversion) 

Error        2        error C2678: binary '*' : no operator found which takes a left-hand operand of type 'nkumath::Matrix<T,ROWS,COLS>' (or there is no acceptable conversion)               

Thanks again for everyone's help on this.

EDIT: Here is the solution! which I voted for. Thanks!!!

//Operator*
template <typename T, size_t ROWS, size_t INNER, size_t COLS>
Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, INNER> & lhs, const Matrix<T, INNER, COLS> & rhs) {
    Matrix<T, ROWS, COLS> returnVal;
    return returnVal.matrixMult(lhs, rhs);
};
share|improve this question
1  
You are missing the overloaded operator for multiplying two matrices. I don't see it posted here. It's looking for Template, Rows, Cols. You just have Complex, Complex for your overloaded * operator function. –  user195488 Apr 6 '11 at 18:56
    
Homework? Smells like it... –  Billy ONeal Apr 6 '11 at 18:57
    
@0A0D: There is an overload (operator*(const Matrix<T, ROWS, COLS> & lhs, const Matrix<T, ROWS, COLS> & rhs)), it's just not valid in this case. –  Oliver Charlesworth Apr 6 '11 at 19:05

2 Answers 2

up vote 4 down vote accepted

Your templated operator * overload does not allow the two input matrices to differ in size.

share|improve this answer
    
This sounds right, the templated operator* you have has the same ROWS COLS in the both Matrices. In your main you are multiplying a Matrix<int, 2, 3> and a Matrix<int, 3, 5> which aren't the same type, so your templated operator* doesn't qualify. You need to define some template like template <typename T, size_t L, size_t I, size_t R> Matrix<T, L, R> operator*(Matrix<T, L, I> const &lhs, Matrix<T, I, R> const &rhs) –  Bob Fincheimer Apr 6 '11 at 19:09
    
My friend, thank you for clarifying this. That is exactly what I was doing wrong. This is the fixed code. –  Truesky Apr 6 '11 at 19:14
    
//Operator* template <typename T, size_t ROWS, size_t INNER, size_t COLS> Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, INNER> & lhs, const Matrix<T, INNER, COLS> & rhs) { Matrix<T, ROWS, COLS> returnVal; return returnVal.matrixMult(lhs, rhs); }; –  Truesky Apr 6 '11 at 19:15

Your problem is that the templated operator* requires both sides of the multiplication to be the same Matrix instantiation. T, ROWS and COLS can't be deduced to different values for the type of lhs and rhs in the same function.

template <typename T, size_t ROWS, size_t COLS> Matrix<T, ROWS, COLS> operator*(const Matrix<T, ROWS, COLS> & lhs, const Matrix<T, ROWS, COLS> & rhs);

Matrix<int, 2, 3> m4;
Matrix<int, 3, 5> m5;
m4*m5;

If the compiler deduces ROWS and COLS as 2 and 3 for the above multiplication, the rhs type won't match your templated operator*. And if the compiler deduces ROWS as 3 and COLS as 5, the lhs type won't match.

You'll need to define how multiplication of differently sized Matrix instances should work, and make e.g:

template <typename T, size_t ROWS_L, size_t COLS_L, size_t ROWS_R, size_t COLS_R>
Matrix<T, ROWS_L, COLS_L> operator*(const Matrix<T, ROWS_L, COLS_L> & lhs, const Matrix<T, ROWS_R, COLS_R> & rhs);
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